Lychnophora ericoides Mart. (Brazilian arnica) ethanol extract accelerates the skin wound healing process: Evidence for its mechanism of action.

BACKGROUND: Lychnophora ericoides Mart, also known as the Brazilian arnica or fake arnica, belongs to the Asteraceae family. Leaves and roots are used in alcoholic and hydroalcoholic preparations for the treatment of wounds, inflammation, and pain. PURPOSE: The present study aimed to investigate the effects of L. ericoides ethanolic extract (EELE) on cutaneous wound healing and the mechanisms of action involved. METHODS: A total of 72 C57BL/6 mice were randomly divided into four groups of six animals each. An excisional wound was made in the dorsal region of each mouse. The test groups were topically treated with the vehicle, a positive control commercial reference drug, EELE ointment (5%), and EELE ointment (10%). The treatments were applied over 14 days. The wound area was measured every two days to verify the wound closure kinetics. On days 3, 7, and 14 the wound tissue samples were processed for Hematoxylin and Eosin, Masson-Trichrome, and Toluidine blue staining. The expression of renin-angiotensin system (RAS) components, the vascular growth factor-A (VEGF-A), the basic fibroblast growth factor (FGF-2), and type I collagen genes were evaluated. Phytochemical analyses were performed using HPLC-DAD and HPLC-MS/MS. RESULTS: The EELE (10%) significantly reduced the wound area compared to the treatments used for the other groups. Histological analysis demonstrated that wounds treated with L. ericoides for 14 days developed improved anatomical skin features, healed with hair follicles and sebaceous glands, increased collagen production and angiogenesis, and decreased the number of mast cells at the injury site. Real-time PCR data demonstrated that groups treated with EELE (10%) showed increased Type I collagen, VEGF-A, FGF-2, and AT1R and decreased ACE II and receptor MAS. The healing action of L. ericoides may be related to the presence of phenolic compounds, such as phenolic acids, chlorogenic acid derivatives, and C-glycoside flavonoids. CONCLUSION: Topical treatment with EELE increases important factors for wound healing: FGF, VEGF, collagen formation, and the expression of the proliferative axis of the renin-angiotensin system. For the first time, the present study shows the healing action of L. ericoides at the molecular level in an animal model. This process can be used as an alternative therapy for wound healing and the development of herbal therapy.

Arnica montana L. associated with microcurrent accelerates the dermis reorganisation of skin lesions.

The aim of this study was to test the effect of electrical stimulation in association with topical Arnica montana gel on organisational changes in the dermis during tissue repair. An experimental rat incisional skin lesion was used for the study. This involved making an incisional lesion on the dorsum of the animals using a scalpel. Ninety-six animals were used divided into the following groups: control (C), microcurrent (MC); topical treatment with Arnica montana gel (ARN); the ARN + microcurrent (ARN + MC). Treatments were administered daily, and injured tissue samples were collected and processed on Days 2, 6 and 10 for dermis analyses. Myeloperoxidase levels were greater in control than in treatment groups on Days 2 and 6. F4/80 expression was similar among all treatment groups and greater than that in control on Day 2. On Day 6, the expression of vascular endothelial growth factor was higher in the MC group than that in other groups, whereas transforming growth factor-ß expression increased in the MC and ARN + MC groups on Day 10. The expression of matrix metalloproteinase-2 was higher in the ARN + MC group when compared with other groups on Day 10. Expression levels of collagen I were increased in the ARN and ARN + MC groups when compared with control and MC groups on Day 6, while expression of collagen III was enhanced in MC, ARN, and ARN + MC groups when compared with the control. The protocol combining microcurrent with topical application of ARN reduces the inflammatory process, increases myofibroblasts proliferation and decreases the presence of macrophages in the dermis during skin repair in rats.

Volatile Composition Variability of Arnica montana Wild Populations of Trentino-Alto Adige, Italy, Determined by Headspace-Solid Phase Microextraction.

Arnica montana is a plant distributed in most of Europe, including the Alpine arc and Apennines in Italy, and traditionally used worldwide for medicinal properties. Twelve natural populations of the species from Trentino-Alto Adige, Italy, were characterized using Headspace-Solid Phase Microextraction analysis for their volatile profile. Fifty-one compounds were detected in flower heads, the most abundant being (E)-Caryophyllene (23.4 %), 2,2,4,6,6-Pentamethylheptane (8.3 %), α- trans-Bergamotene (7.2 %), Germacrene D (5.7 %), and Hexanal (5.3 %). A multivariate analysis performed on the ten most abundant compounds grouped these investigated accessions into five main clusters. Three clusters, comprising together five accessions, were linked to the geographical origin of two collection sites. This work is a complete characterization of volatiles of the species by SPME analysis reported to date. Furthermore, results suggest that the species' volatile profile can be linked to the geographical origin of the natural populations and, therefore, represent a tool for evaluating biodiversity within the species.

Developmental and Environmental Effects on Sesquiterpene Lactones in Cultivated Arnica montana L.

The amount of sesquiterpene lactones and the lactone profile of Arnica montana L. in flowering and seed formation stages in vitro and in vivo propagated from seeds of German, Ukrainian, and Austrian origin and grown in two experimental fields were studied. It was found that in vitro propagated 2-year plants in full flowering stage accumulated higher amount of lactones in comparison to in vivo propagated 3-year plants and to the seed formation stage, respectively. Helenalins predominated in in vivo propagated 2-year or in vitro propagated 3-year plants. 2-Methylbutyrate (2MeBu) was the principal ester in the samples with prevalence of helenalins, while isobutyrate (iBu) was the major one in the samples with predominance of 11,13-dihydrohelenalins. The results revealed that the environmental conditions on Vitosha Mt. are more suitable for cultivation of A. montana giving higher content of lactones.

Oil Secretory System in Vegetative Organs of Three Arnica Taxa: Essential Oil Synthesis, Distribution and Accumulation.

Arnica, a genus including the medicinal species A. montana, in its Arbo variety, and A. chamissonis, is among the plants richest in essential oils used as pharmaceutical materials. Despite its extensive use, the role of anatomy and histochemistry in the internal secretory system producing the essential oil is poorly understood. Anatomical sections allowed differentiation between two forms of secretory structures which differ according to their distribution in plants. The first axial type is connected to the vascular system of all vegetative organs and forms canals lined with epithelial cells. The second cortical type is represented by elongated intercellular spaces filled with oil formed only between the cortex cells of roots and rhizomes at maturity, with canals lacking an epithelial layer.Only in A. montana rhizomes do secretory structures form huge characteristic reservoirs. Computed tomography illustrates their spatial distribution and fusiform shape. The axial type of root secretory canals is formed at the interface between the endodermis and cortex parenchyma, while, in the stem, they are located in direct contact with veinal parenchyma. The peripheral phloem parenchyma cells are arranged in strands around sieve tube elements which possess a unique ability to accumulate large amounts of oil bodies. The cells of phloem parenchyma give rise to the aforementioned secretory structures while the lipid components (triacylglycerols) stored there support the biosynthesis of essential oils by later becoming a medium in which these oils are dissolved. The results indicate the integrity of axial secretory structures forming a continuous system in vegetative plant organs.

Quantitative analysis of sesquiterpene lactones in extract of Arnica montana L. by 1H NMR spectroscopy.

(1)H NMR spectroscopy was used as a method for quantitative analysis of sesquiterpene lactones present in a crude lactone fraction isolated from Arnica montana. Eight main components - tigloyl-, methacryloyl-, isobutyryl- and 2-methylbutyryl-esters of helenalin (H) and 11α,13-dihydrohelenalin (DH) were identified in the studied sample. The method allows the determination of the total amount of sesquiterpene lactones and the quantity of both type helenalin and 11α,13-dihydrohelenalin esters separately. Furthermore, 6-O-tigloylhelenalin (HT, 1), 6-O-methacryloylhelenalin (HM, 2), 6-O-tigloyl-11α,13-dihydrohelenalin (DHT, 5), and 6-O-methacryloyl-11α,13-dihydrohelenalin (DHM, 6) were quantified as individual components.

Evidencia histórica sobre la génesis y difusión del concepto de "Árnica" en Europa Occidental / Historical evidence on the genesis and spread of the concept of "arnica" in Western Europe

El concepto de "árnica" está ligado a diferentes especies de la familia Asteráceas o incluso de otras familias. Era desconocido para los clásicos greco-romanos y tampoco se mencionó en los textos de la Alta Edad Media. Lo introdujo el editor de la obra Physica de Santa Hildegarda de Bingen, en 1533, para referirse a una planta con propiedades medicinales, mágicas y fabulosas. La especie Arnica montana L., fue descrita por Linneo en 1753. Alcanzó gran éxito en el siglo XVIII en el tratamiento de golpes e inflamaciones y se popularizó a lo largo de los siglos XIX y XX. Estudiamos la nomenclatura del árnica en la Europa Central y Occidental en lenguas germánicas (alemán, walser o tisch, moqueno) y romances (francoprovenzal, occitano, francés, italiano, ladino, español, catalán y portugués) y la evolución del concepto en diferentes autores botánicos. Esto nos permite concluir que los usos del árnica, muy arraigados en el mundo alpino, son recientes en el mediterráneo (segunda mitad del Siglo XVIII), llegando a la medicina popular a través de médicos y farmacéuticos (AU)

The concept of "árnica" is linked to different species of Asteraceae or other plant families. Unknown to the Classic Greeks and Romans it was not cited in the Early Medieval texts. It was first introduced in 1533 by the editor of St. Hildegard’s Physica to name a magical plant species. Arnica montana L., was described by Linneus in 1753. It was introduced during the 18th century in the medicine for the treatment of inflammation and hematoma, becoming widely used in the 19th and 20th centuries. The nomenclature of Arnica in Western and Central Europe is analyzed in Germanic (German, Walser or Tisch, Mochene) and Romance languages (Francoprovençal, Occitan, French, Italian, Ladino, Spanish, Catalan and Portuguese) and the evolution of the concept in different authors. This allows us to conclude that the use of Arnica is deeply rooted in the Alpine traditions, whereas in the Mediterranean is recent (2nd half of the 18th century), reaching the folk-medicine through physicians and pharmacists (AU)

O conceito de "arnica" está ligada a diferentes espécies da família Asteraceae e, inclusivamente a espécies de outras famílias. Era desconhecido para os clássicos greco-romanos e também não é mencionado nos textos da Alta Idade Média. Foi introduzido pelo editor da Physica de Santa Hildegarda de Bingen, em 1533, para se referir a uma planta com propriedades medicinais, mágicas e fabulosas. A espécie Arnica montana L., foi descrita por Lineu em 1753. Alcançou grande sucesso no século XVIII para o tratamento de feridas e inflamações e tornou-se popular durante os séculos XIX e XX. Estudámos a classificação de arnica na Europa Central em línguas germânicas (alemão, walser ou tisch, moqueno) e românicas (franco-provençal, occitano, francês, italiano, ladino, espanhol, catalão e português) e da evolução do conceito em diferentes autores botânicos. Isso permitenos concluir que as utilizações da arnica, muito arreigadas na zona Alpina, são recentes na região do Mediterrâneo (segunda metade do século XVIII), chegando à medicina popular através de médicos e farmacêuticos (AU)

Perioperative risks and benefits of herbal supplements in aesthetic surgery.

Most medications, herbal preparations, and nutraceutical supplements have notable effects on biochemical pathways and may influence wound healing, coagulation, and cardiovascular function. They can also interact with other drugs. A large portion of the data available regarding the effects of naturopathic medicines is anecdotal. Marketing of certain products may be misleading and potentially harmful, and quality control standards are highly variable. In order to ensure quality control and standardization of products, it is prudent to work with preparations manufactured by companies that adhere to pharmaceutical (good manufacturing practice [GMP]) standards. However, many of these higher-quality products are not readily available to the public over the counter. A large percentage of patients undergoing plastic surgery use one or more herbal medications, but the disclosure of such medications to allopathic providers is often incomplete. In addition, patients may not understand the importance of discontinuing such medications before surgery. The authors review research on the possible benefits and risks of commonly used herbal medications such as arnica montana, St. John's wort, bromelain, echinacea, ginkgo biloba, ephedra, valerian, and others, focusing on their potentially positive or negative impact during the perioperative period of aesthetic surgery. Good communication with surgical patients, including the administration of a presurgical questionnaire to help identify any use of herbal medications, is emphasized.

Altitudinal variation of secondary metabolite profiles in flowering heads of Arnica montana cv. ARBO.

The altitudinal variation on the contents of secondary metabolites in flowering heads of Arnica montana was assessed. Plants of A. montana cultivar ARBO were grown in nine experimental plots at altitudes between 590 and 2230m at Mount Patscherkofel near Innsbruck/Austria. The total contents of sesquiterpene lactones and flavonoids were not positively correlated with the altitude of the growing site. However, the proportion of flavonoids with vicinal free hydroxy groups in ring B to flavonoids lacking this feature significantly increased with elevation. Additionally, the level of caffeic acid derivatives also positively correlated with the altitude of the growing site. In particular amounts of 1-methoxyoxaloyl-3,5-dicaffeoylquinic acid significantly increased in higher sites and samples from the summit region contained 85% more of this compound than samples from valley sites. These results are discussed with regards to chemosystematic studies comparing samples collected in different altitudes as well as in the light of a UV-B protective and radical scavenging function of phenolics and their significance for plant life in environments with elevated UV-B radiation.